$3M gaming project could help spark STEM education

By Laura Devaney, Managing Editor

January 31st, 2012

MIT will develop an online multiplayer game for high school math and biology.

A $3 million Bill and Melinda Gates Foundation grant will help the Massachusetts Institute of Technology (MIT) Education Arcade build a massively multiplayer online game (MMOG) to help high school students learn math and biology.

Part of the grant’s purpose will be to change the way that science, technology, engineering, and math (STEM) topics are traditionally taught in secondary schools. Studies indicate that many students fail to remain engaged and interested in STEM education in high school and college, leading to a need for highly skilled STEM employees in the nation’s workforce.

MIT Associate Professor Eric Klopfer, director of the Education Arcade and the Scheller Teacher Education Program, has researched educational gaming tools for more than 10 years. Klopfer created StarLogo TNG, a platform that helps kids create 3D simulations and games using a graphical programming language, as well as several mobile game platforms—including location-based augmented reality games.

MIT’s Education Arcade explores games that promote learning through authentic and engaging play. Aside from STEM education topics, Education Arcade projects have included history, literacy, and language learning and have been tailored to a wide range of ages. They have been designed for personal computers, handheld devices, and online delivery.

In a MMOG, many players’ avatars can interact and cooperate or compete directly in the same virtual world.

“This genre of games is uniquely suited to teaching the nature of science inquiry, because they provide collaborative, self-directed learning situations,” Klopfer said. “Players take on the roles of scientists, engineers, and mathematicians to explore and explain a robust virtual world.”

The game will be aligned with the Common Core standards in mathematics and Next Generation Science Standards for high school students. It will use innovative, task-based assessment strategies embedded into the game to let students use and display mastery of the topics and skills necessary to play the game. This task-based assessment strategy also will give teachers targeted data that will enable them to track student progress and provide valuable, just-in-time feedback.

Klopfer’s team will work closely with Filament Games, a Wisconsin-based games production studio, as the project’s primary software developers.